从废茶粉和聚苯乙烯通过微波辅助原位催化共热解合成可持续化学品：使用实验和模拟方法分析热解。

Synthesis of sustainable chemicals from waste tea powder and Polystyrene via Microwave-Assisted in-situ catalytic Co-Pyrolysis: Analysis of pyrolysis using experimental and modeling approaches.

机构信息

Department of Chemical Engineering, Pandit Deendayal Energy University, Gandhinagar 382007, India.

Department of Chemical Engg, AU College of Engineering (A), Andhra University, Visakhapatnam 530003, India.

出版信息

Bioresour Technol. 2022 Oct;362:127813. doi: 10.1016/j.biortech.2022.127813. Epub 2022 Aug 27.

DOI:10.1016/j.biortech.2022.127813

PMID:36031137

Abstract

In the current study, catalytic co-pyrolysis was performed on waste tea powder (WTP) and polystyrene (PS) wastes to convert them into value-added products using KOH catalyst. The feed mixture influenced the heating rates (17-75 °C/min) and product formation. PS promoted the formation of oil and WTP enhanced the char formation. The maximum oil yield (80 wt%) was obtained at 15 g:5 g, and the maximum char yield (44 wt%) was achieved at 5 g:25 g (PS:WTP). The pyrolysis index (PI) increased with the increase in feedstock quantity. High PI was noticed at 25 g:5 g, and low PI was at 5 g:5 g (PS:WTP). Low energy consumption and low pyrolysis time enhanced the PI value. Significant interactions were noticed during co-pyrolysis. The obtained bio-oil was analyzed using GC-MS and a plausible reaction mechanism is presented. Catalyst and co-pyrolysis synergy promoted the formation of aliphatic and aromatic hydrocarbons by reducing the oxygenated products.

摘要

在本研究中，采用 KOH 催化剂对废茶粉（WTP）和聚苯乙烯（PS）废物进行催化共热解，将它们转化为附加值产品。进料混合物影响加热速率（17-75°C/min）和产物形成。PS 促进油的形成，WTP 促进炭的形成。在 15g:5g 时，油收率（80wt%）最高，在 5g:25g（PS：WTP）时，炭收率（44wt%）最高。热解指数（PI）随进料量的增加而增加。在 25g:5g 时，PI 值较高，在 5g:5g（PS：WTP）时，PI 值较低。低能耗和短热解时间提高了 PI 值。共热解过程中观察到显著的相互作用。使用 GC-MS 对获得的生物油进行了分析，并提出了一个合理的反应机制。催化剂和共热解协同作用通过减少含氧产物促进了脂肪族和芳香族烃的形成。

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从废茶粉和聚苯乙烯通过微波辅助原位催化共热解合成可持续化学品：使用实验和模拟方法分析热解。

Synthesis of sustainable chemicals from waste tea powder and Polystyrene via Microwave-Assisted in-situ catalytic Co-Pyrolysis: Analysis of pyrolysis using experimental and modeling approaches.

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